Research Journal of Recent Sciences ______ ______________________________ __ __ ____ ____ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 7 - 16 (201 2 ) Res.J. Recent .Sci. International Science Congress Association 7 Mahseer Fishes of River Barak, Jatinga, Dholeswari and Ganol in North East India Barbhuiya Anjam Hussain Department of Zoology, Don Bosco College, Tura, Meghalaya, INDIA Available online at: www.isca.in (Received 25 th September 2011, revised 31 st December 2011 , accepted 24 th January 2012 ) Abstract Ichthyofauna and limnology of the river Barak, Jatinga, Dhaleswari and Ganol in north east India has been investigated. 111 species of fishes including five species of mahseer were recorded from the four rivers. The limnological parameters did not s how much abrupt fluctuation with temperature of air 25 - 30 0 C, Water 24 - 26 0 C, pH 6.56 - 9.58, Conductivity 63 - 165.63 ตmho/cm, Dissolved Oxygen 5.42 - 7.61 mg/l, Free CO 2 7.25 - 28.47 mg/l, Total Alkalinity 20 - 121.95 mg/l. Except the major water quality like pH and dissolved oxygen all the other parameter supports mah seer fishery in these rivers mainly in Ganol and Barak. Keywords: Mahseer, North - East, Barak, Ganol. Introduction The north - eastern region of India lies between 22 0 00โ€™N and 29 0 05โ€™N and 88 0 00โ€™E and 97 0 30โ€™E and shares international border with Bhutan, China, Myanmar and Bangladesh and contains more than one - third of the countryโ€™s total biodiversity. The north - eastern region of India is considered as one of the hotspots of freshwater fish biodiversity in the world 1 . This rich diversity of the region could be assigned to certain reasons, notably, the geo - morphology and the tectonics of this zone. The region is dominated by two drainage systems namely the Brahmaputra in the north and the Barak in the south. Important rivers of the Brahmaputra drainage are Subansiri, Kameng, Bhareli, Dhansiri, Manas,Umiam, Kopili, Myntang, Jingiram and Simsang while Irang, Makru, Tuivai, Jiri, Chiri, Madhura, Jatinga, Katakhal, Dhaleshwari , Singla, Longai, Sonai, Kynshi, Umngot, Myntdu and Ganol are the prominent rivers of the Barak drainage. The other hill - stream tributaries of river Barak are Bubankhal, Monkhal, Kotaikhal, Chotirkhal, Si - vadung, Lalmatikhal, Chandikhal etc. The average temperature varies between 3.9 o C and 15.6 o C in winter and climbs upto 15 o C and 28 o C during summer. With the hills rising to 3,500 m m.s.l., the region is cool despite its proximity to tropics 2 . River Barak is the biggest river in Southern part of north east India flowing through the Barak valley region of Assam. Barak originates from Japvo peak in Nagaland (N 25 0 28โ€™ E 94 0 17โ€™) at (approx 3353.65 m m.s.l.) and flows through Karong village along the Manipur - Nagaland border, drains almost the entire Ma nipur valley before entering Assam. Then the river starts crawling east ward in the plains crossing Silchar city and receiving several other tributaries like Chiri, Jiri, Madhura, Sonai etc. It then flows through the western part of Silchar where it joined by the river Jatinga, Dhaleswari along with several other tributaries, bifurcates into Surma - Kushiara, enters Bangladesh and join with Ganol to form Meghna. The river Meghna then combines with Padma and falls in the Bay of Bengal. River Jatinga is one of the major North bank tributaries of river Barak. The river originated from Barail Hill range in the village Jatinga (N 25 0 7โ€™29.0โ€ E 93 0 1โ€™36.0โ€) at North Cachar Hills district of Assam. The river Jatinga then flows all the way though the western boundary o f the Barail Wildlife Sanctuary and after joining with several other tributaries like Chhotarekha, Bororekha, Daku, Chhota Lokha, Dimru, Ditokcherra, Kayang, Dolu, Badri etc merge with Barak river at a place called Jatingamukh below Barkhola village near C handpur (N 24 0 53โ€™3.2โ€ E 92 0 44โ€™34.8โ€). River Dhaleswari is one of the south bank tributaries of river Barak originated from the Mizo hills around Lunglei district of Mizoram at Zobawk (N 22 0 51โ€™31.2โ€ E 92 0 48โ€™28.9โ€) in the name of river Tlawng at an altitude of 2500 m m.s.l. The river then enters its mid reach region around a place called Sairong, about 30 kms from Aizwal city, the river flows thereafter mainly with riffle - pool and joins the tributaries like Thosibowk, Gutur, Meidum, Pakwa etc till it reaches the base level zone around the village Bhairabi along Assam - Mizoram border (N 24 0 10โ€™25.2โ€ E 92 0 32โ€™20.5โ€). At village Rongpur - III in Hailakandi District (N 24 0 23โ€™48.7โ€ E 92 0 35โ€™0.34โ€) the original course of the river is diverted and the main stream joined a canal called Katakhal that later falls river Barak near village Katakhal (N 24 0 49โ€™40.8โ€ E 92 0 38โ€™32.6โ€) traversing a total distance of 369.4 Km. However, the shallow original course of Dhaleswari joins Barak little downstream near Panchgram at Hailakandi D istrict (N 24 0 51โ€™35.2โ€ E 92 0 36โ€™48.2โ€). The Ganol is a 1 st order river originating from the eastern side of the Nokrek Biosphere, drains the entire Western Garo Hills joining several other tributaries before Research Journal of Recent Sciences _ _____ _____ _ _ _______________________________ ______________ __ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 7 - 16 (201 2 ) Res.J.Chem.Sci. International Science Congress Association 8 entering Assam through Dhubri district near Manka char after travelling a distance of 94 km from the origin. The river then enters Bangladesh near Char Aomkhaoa (25 0 31โ€™ 45.22โ€ N 89 0 51โ€™ 18.02โ€ E) and flows a major distance, which joins the Barak near Munshiganj and ultimately falls in the Bay of Bengal a fter joining with the Brahmaputra drainage traveling a distance of 655.5 km. The origin of the rivers are hilly and the reach type is mainly pool and riffle to braided type, while bedrock, boulders, cobbles and gravels form the main components of the rive r substratum forming suitable feeding and breeding ground for hill stream fishes including few Important fishes like Mahseers etc. Out of about 930 species of fishes inhabiting the freshwaters of India, the north - eastern India is represented by 267 species belonging to 114 genera under 38 families and 10 orders 2 . The present report represents temporal ichthyofaunal distribution in the upper reaches of the rivers along with the estimation of physico - chemical parameter of the rivers, which is experiencing debilitating anthropogenic activities. Material and Methods The preliminary field surveys were conducted during 2007 - 2011. Habitat inventory parameters wer e recorded in a standard format 3 from each study spot in t he field itself. Some of the physico - chemical parameters were measured on the field itself, and water samples were collected in the pre - cleaned bottles to study other parameters in the laboratory using methods described in 4,5 and other standard literature. Geographical coordinates were recorded using hand held Garmin GPS - 60. The fish samples were collected with the help of local people using various types of nets and methods permissible by the concerned district authority and also from the nearest fish landing centers. The collected specimens were preserved immediately in 10% formaldehyde and kept in the specimen museum of the Department of Life Science, Assam University, Silchar and Department of Zoology, Don Bosco College, Tu ra. Preliminary identification was done following standard literature of Jayaram 6 ,7 , Menon 8 and with the help of expertise available at Zoological Survey of India, Shillong. Results and Disscussion The results of habitat inventory study are shown in t able 1, 2, 3, 4 and the comparison of physico - chemical characteristics of these rivers with that of other Indian rivers with mahseers are given in table 5. The preliminary survey on the ichthyofauna in the four rivers in north east India has revealed 103 s pecies including 5 species of mahseers under 57 genera belonging to 24 families and 10 orders. A total of 87 species from river Barak, 51 species from river Jatinga, 40 species from river Dhaleswari and 10 species from river Ganol were recorded during the study period. The l ist of fishes is given in table - 6. The mahseers are large cold water cyprinids occurring in upland rocky streams of India, Nepal, China, Myanmar, Sri Lanka, Pakistan, Thailand and Bangladesh. The river Ganol along with its tributaries originated from the hills and consequently, these torren tial hill streams is a habitat of hill stream fishes including mahseers most of them are included under Red Data Book of IUCN 9 . Unfortunately no breeding ground of mahseer was recorded in the main course of the rivers. But alarmingly, these lucrative fishes are feared to be in grave danger so much so that they are now practically on the threshold of extinction. This dismal state of affairs necessitated the present study, hitherto remained unattended, to undertake with utmost rigor and service. Observ ed anthropogenic activities which may cause perturbations in ichthyo faunal distribution are: Habitat destruction by construction of Dams and Barrages. Extraction of sand and stone from the river bed. Indiscriminate fishing and dynamiting. Point and Non - p oint pollution. Forest Denudation and Erosion of Banks. Constant emission from Government and private Dairy Farm, Poultry Farm etc. Conclusion The present investigation depicts a detailed systematics, ecology, distribution and habitat analysis of the ichthyospecies of the four rivers with special emphasize on the mahseer fishes in the Barak drainages. A common goal in the studies of habitat map ping and community ecology is to uncover patterns of species abundance or distribution and determining the factors that are responsible for them. Rejuvenation of mahseer fishery is of utmost importance for North East region as it is a known species suitab le for culture in medium altitude areas (2500 - 3 500 MSL) wherein the number of suitable economic species is very limited. Moreover, due to their omnivorous feeding and restrictive breeding habits they are very useful for hill stream ecology which is abundan t in this region. Acknowledgement The author gratefully acknowledge the financial assistance received from the Ministry of Environment and Forests, Government of India, Principal Don Bosco College, Tura, Meghalaya, India to conduct the basic survey work i n the. Author is also grateful to N. Sen, Scientist and Officer - in - Charge, ZSI Shillong for providing information regarding Mahseer. Research Journal of Recent Sciences _ _____ _____ _ _ _______________________________ ______________ __ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 7 - 16 (201 2 ) Res.J.Chem.Sci. International Science Congress Association 9 Table - 1 (A) Habitat inventory of the river Barak at different study sites S . No. Habitat parameters Karong Tamenlong Tipaimukh Khangrendar 1 Stream order 2nd order 3 rd order Fourth order Fourth order 2 Position N 25 0 18โ€™16.5โ€ E 94 0 03โ€™1.4โ€ N 24 0 41'7.7โ€ E 93 0 20'29.8โ€ N 24 0 14โ€™8.9โ€ E 93 0 01โ€™2.1โ€ N 24 0 28'25.4โ€ E 93 0 2โ€™59.8โ€ 3 Altitude m.s.l. (m) 1018 65 26 25.4 4 Valley segment Colluvial Colluvial Colluvial Alluvial 5 Microhabitat type Fast water with much strong riffles with occasional pools. Fast water with much strong riffles with occasional pools. Mainly runs and Backwater pools with occasional riffles. Occasional riffles, Backwater pool and mid - channel pool 6 Mean Width (m) 40 - 110 45 - 150 30 - 350 50 - 140 7 Mean depth (m) 0.07 - 0.5 0.05 - 0.5 0.53 - 1 0.21 - 3 8 Cover type Overhanging vegetation, turbulence, turbidity, undercut bank and depth cover. Overhanging Vegetation, Bottom free boulders, undercut bank and turbulence. Overhanging vegetation, Depth cover. Depth cover, overhanging vegetation, bottom free big boulders and undercutbank. 9 Substrate type Gravels, cobbles, fine, boulder and few bed rocks. Cobbles, gravels, bedrocks and boulders. Fine, sand, Boulder and few bed rocks. Few bedrock, Boulders and mainly fine sand 10 Riparian land use Human habitation forests and agriculture Human habitation and forests. Human habitation forests and agriculture Human habitation and forests. 11 Signs of erosion Visible Visible. Visible Much 12 Water current (m/s) 2.01 1.51 0.66 0.87 13 Gradient in degree 10 0 17 0 28 0 11 0 Research Journal of Recent Sciences _ _____ _____ _ _ _______________________________ ______________ __ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 7 - 16 (201 2 ) Res.J.Chem.Sci. International Science Congress Association 10 Table - 1 (B) Habitat inventory of the river Barak at different study sites S . No. Habitat parameters Fulertal Tarapur Panchgram Katigarah 1 Stream order Fourth order Fourth order Fifth order Fifth order 2 Position N 24 0 47'18.5โ€ E 93 0 1โ€™34.8โ€ N 24 0 50'56.8โ€ E 92 0 46'42.7โ€ N 24 0 51'45.5โ€ E 92 0 36โ€™33.6โ€ N 24 0 52'28.6โ€ E 92 0 33โ€™52.8โ€ 3 Altitude m.s.l.(m) 29 24.5 22 23 4 Valley segment Alluvial Alluvial Colluvial Alluvial 5 Microhabitat type Run - sheet, eddypool, Backwater pool and mid - channel pool Run - sheet, eddypool, mid - channel pool and backwater pool Mainly run - sheet and pool. Mainly run - sheet and pool. 6 Mean Width (m) 150 - 300 170 - 250 50 - 200 90 - 300 7 Mean depth varies between (m) 2.4 - 3 2.5 - 4 2.0 - 6 2.5 - 5.2 8 Cover type Depth cover, overhanging Vegetation, bottom free big boulders and undercut bank. Overhanging Vegetation, Depth and small woody debris and turbidity. Turbidity, depth and turbulence. Turbidity, depth and turbulence. 9 Substrate type Few bedrock, Boulders and mainly fine, sand Only fine, sand, silt and clay. Mostly fine and sand. Mostly fine. 10 Riparian land use Human habitation Mostly Human habitation. Human habitation and Industries. Human habitation 11 Signs of erosion Much Visible. Visible Visible 12 Water current (m/s) 0.50 0.55 0.33 0.27 13 Gradient in degree 15 0 12 0 8 0 10 0 Research Journal of Recent Sciences _ _____ _____ _ _ _______________________________ ______________ __ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 7 - 16 (201 2 ) Res.J.Chem.Sci. International Science Congress Association 11 Table - 2 Habitat inventory of the river Jatinga at different study sites S . No. Habitat parameters Maharajpur Damcherra Balacherra Chandpur 1 Stream order Fifth order Fifth order Fourth order Fourth order 2 Position N 25 0 07'3.9โ€ E 92 0 51โ€™59.3โ€ N 25 0 1'1.8โ€ E 92 0 45โ€™37.0โ€ N 24 0 57'55.3โ€ E 92 0 45'42.6โ€ N 24 0 53โ€™ 20.1" E 92 0 44โ€™ 39" 3 Altitude m.s.l. (m) 164.63 47.2 26.21 24.2 4 Valley segment Alluvial Colluvial Alluvial Alluvial 5 Microhabitat type Mainly run - sheet and pool - riffle. Mainly run - sheet and pool - riffle. Mainly run - sheet with some pool - riffle. Mainly run - sheet. 6 Mean Width (m) 90 - 300 80 - 150 55 - 130 150 - 300 7 Mean depth (m) 0.25 - 2.5 0.5 - 0.6 0.10 - 1.2 0.24 - 3 8 Cover type Turbidity, depth turbulence, undercut banks and overhanging vegetation. Turbidity, depth, turbulence, and overhanging vegetation. Overhanging Vegetation, Depth and small woody Debris and turbidity. Depth cover, overhanging vegetation, bottom free big boulders and undercut bank. 9 Substrate type Mostly fines along with cobbles gravels and boulders. Mostly fine, sand cobbles and gravels. Only fine, sand, cobbles. Only fine, sand, silt and clay. 10 Riparian land use Human habitation railways and forests. Human habitation railways. Mostly Human habitation. Human habitation 11 Signs of erosion Visible Visible Visible. Much 12 Water current (m/s) 0.46 0.77 0.17 0.07 13 Gradient in degree 10 0 8 0 2 0 1.5 0 Research Journal of Recent Sciences _ _____ _____ _ _ _______________________________ ______________ __ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 7 - 16 (201 2 ) Res.J.Chem.Sci. International Science Congress Association 12 Table - 3 (A) Habitat inventory of the river Dhaleswari at different study sites Sl No. Habitat parameters Near Khawrihnim Near Nghalchhun Sairong Bhairabi 1 Stream order Second order Third order Third order Fourth order 2 Position N 23 0 37'50.7โ€ E 92 0 39โ€™0.6โ€ N 23 0 45'40.6โ€ E 92 0 37'37.9โ€ N 23 0 48โ€™ 36.8" E 92 0 38โ€™ 57.9" N 24 0 11'6.01โ€ E 92 0 31โ€™54.0โ€ 3 Altitude m.s.l. (m) 436 381 74.08 54 4 Valley segment Colluvial Colluvial Colluvial Colluvial 5 Microhabitat type Mainly cascade and riffle - pools. Mainly riffle - pool, with some cascade and run - sheet. Mainly riffle - pool, with some cascade and run - sheet. Mainly run - sheet with some riffle - pool. 6 Mean Width (m) 4 - 10 8 - 50 50 - 150 40 - 125 7 Mean depth (m) 0.7 - 1 1.5 - 1 2.0 - 6 2.5 - 5 8 Cover type Overhanging Vegetation , bottom free big boulders and undercutbank. Overhanging vegetation, bottom free big boulders and undercutbank. Turbidity, depth and turbulence. Turbidity, depth and turbulence. 9 Substrate type Mainly boulders with few bedrock, and cobbles. Mainly boulders with few bedrock, cobbles and gravels. Mainly cobbles with few bedrock, boulders and gravels. Mostly fines and gravels. 10 Riparian land use Dense forest. Dense forest. Human habitation, horticulture and Industries. Human habitation and forest. 11 Signs of erosion Nil Nil Visible Visible 12 Water current (m/s) 0.12 0.96 0.29 0.57 13 Gradient in degree 11.5 0 9.5 0 8 0 10 0 Research Journal of Recent Sciences _ _____ _____ _ _ _______________________________ ______________ __ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 7 - 16 (201 2 ) Res.J.Chem.Sci. International Science Congress Association 13 Table - 3 (B) Habitat inventory of the river Dhaleswari at different study sites Sl No. Habitat parameters Gharmura Panchgram 1 Stream order Fourth order Fourth order 2 Position N 24 0 16โ€™ 39.2" E 92 0 30โ€™ 57.9" N 24 0 51'21.5โ€ E 92 0 36'16.3โ€ 3 Altitude above m.s.l. (m) 34.75 20.5 4 Valley segment Alluvial Alluvial 5 Microhabitat type Pool riffle and run. Run - sheet. 6 Mean Width (m) 50 - 110 17 - 50 7 Mean depth (m) 1.3 - 2.0 0.4 - 1.5 8 Cover type Depth cover, overhanging Vegetation , turbulence and turbidity. Overhanging Vegetation, Depth and Small woody debris and turbidity. 9 Substrate type Mainly fines and sand. Only fine, sand, silt and clay. 10 Riparian land use Human habitation and market place. Mostly Human habitation and industries. 11 Signs of erosion Much Visible. 12 Water current (m/s) 0.10 0.07 13 Gradient in degree 5 0 4 0 References 1. WCMC., Freshwater Biodiversity: A Preliminary Gobal Assessment. A Document prepared for the 4 th Meeting of the Conference of the Practices to the Convention of Biological Diversity, World Conservation Monitoring Centre (1998) 2. Devi M. M. and Ramanujam S. N., Ichthyodiversity of Meghalaya, Lake 2008, Conservation and management of River and Lake ecosystems (2008) 3. NBFGR., Manual on Habitat Inventory . National Bureau of Fish Genetic Resources (ICAR) (Lucknow), 27 (2000) 4. APHA., Standard Methods for the Examination of Water and Wastewater , American Public Health Association (USA), 1193 (1995) 5. APHA., Standard methods for the examination of water and waste water , (20 th ed.), American Public Health Association, Washington DC, 2605 (1998) 6. Jayaram, K. C., the Freshwater Fishes of the Indian Region , Narendra Publishing House (Delhi), 551 (1999) 7. Jayaram, K. C., the Freshwater Fishes of the Indian Region . Narendra Publishing House (Delhi) pp. 616, (2010) 8. Menon A.G.K., Checklist: Freshwater Fishes of India, Occasional Paper No. 175, Zoological Survey of India (Calcutta), pp. xviii + 366 (1999) 9. IUCN., The IUCN Red List of Threatened Species, http://www.iucnredlist.org/apps/redlist/search � (2010) Research Journal of Recent Sciences _ _____ _____ _ _ _______________________________ ______________ __ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 7 - 16 (201 2 ) Res.J.Chem.Sci. International Science Congress Association 14 Table - 4 Habitat Inventory of River Ganol at different study sites Sl No. Habitat parameters Ranggolwari Balkawari Chibragre Goiragre 1 Stream order 2nd order 2nd order 1st order 1st order 2 Position 25ฐ33'37.11"N 90ฐ11'38.01"E 25ฐ33'48.01"N 90ฐ12'15.69"E 25ฐ34'57.85"N 90ฐ13'42.38"E 25ฐ34'48.99"N 90ฐ14'45.60"E 3 Altitude above m.s.l. (m) 288 162 320 320 4 Valley segment Alluvial Colluvial Colluvial Colluvial 5 Microhabitat type Mainly runs and Backwater pools with occasional riffles. Occasional riffles, Back water pool and mid - channel pool Fast water with much strong riffles with occasional pools. Fast water with much strong riffles with occasional pools. 6 Mean Width (m) 35 - 45 38 - 45 25 - 30 30 - 35 7 Mean Depth (m) 1.5 - 2 1.5 - 2 2 - 3 1.5 - 2 8 Cover type Overhanging vegetation, turbulence, turbidity, undercut bank and depth cover. Overhanging Vegetation, Bottom free boulders, undercut bank and turbulence. Overhanging vegetation, Boulders, Cobbles and Depth cover. Depth cover, overhanging Vegetation, bottom free big boulders and undercut bank. 9 Substrate type Few bed rock, boulder, cobbles, fine and sand. Mainly bedrocks and boulders. Sand, Boulder and few bed rocks. Mainly bedrock, Boulders, cobbles and boulders. 10 Riparian land use Human habitation forests and horticulture Human habitation and forests. Human habitation Forests and tourist spot. Human habitation and forests. 11 Signs of erosion Visible Less. Visible Much 12 Water current (m/s) 0.12 0.2 0.3 0.15 Table 5 Comparison of abiotic factors of studied rivers with that of other rivers in India supporting mahseer populations. Parameters Rivers Water temp (0c) Turbidity (NTU) pH Dissolved Oxygen (mg/l) Free CO2 (mg/l) Total alkalinity (mg/l) Conductivity ตmho/cm Phosphate (mg/l) Nitrate (mg/l) Current velocity (m/s) Ganga (2004) 19.5 23.5 7.55 - - - - - - 0.7 Sutlej (1994) 23 - 7.9 9.02 - 102 296 0.0067 0.135 0.14 Alakananda (1994) 14.75 496.48 7.7 9.39 0.89 39.22 78.75 0.067 0.08 1.34 Bhagirathi (1994) 11.9 173.9 - - - 80.7 - - - 2.15 Bilangana (1994) 12.4 175.05 7.3 12.3 1.85 30 75 0.056 0.09 2.1 Jia Bharali (1984) 21 - 7.3 10.45 3 34 - - - - Mat (2002) 26 6 8.62 6 2.5 12.2 161 - - - Jatinga (2002) 24 16.8 7.31 8.53 23.33 40 126 - - - Barak (2002) 25 71 6.95 7.05 42 101.5 110.5 - - - Dhaleswari (2002) 28.5 104 6.59 7.25 3 47.5 164 - - - Barak (2008) 25.94 35.80 6.86 6.28 28.47 121.95 154.97 0.364 .070 .84 Jatinga (2007 - 08) 24.97 14.80 7.14 7.61 11.69 47.81 105.31 0.22 0.05 0.37 Dhaleswari (2007 - 08) 25.42 92.65 9.58 6.84 16.79 75.98 165.63 0.440 0.140 0.35 Ganol 26 - 6.56 5.42 7.25 20 63 - - 0.19 Research Journal of Recent Sciences _ _____ _____ _ _ _______________________________ ______________ __ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 7 - 16 (201 2 ) Res.J.Chem.Sci. International Science Congress Association 15 Table โ€“ 6 List of fishes in the three rivers Sl. No. Ichthyospecies Ba Ja Dh Ga 1 Notopterus notopterus (Pallas). + - + - 2 Pisodonophis boro (Hamilton). + - - - 3 Tenualosa ilisa (Hamilton) - + - - 4 Gudusia chapra (Hamilton) + + - - 5 Securicula gora (Hamilton) - + + - 6 Salmophasia bacaila (Hamilton) + + + - 7 Aspidoparia morar (Hamilton) + + + - 8 Barilius bakeri Day + - - - 9 Barilius barila (Hamilton) + + - - 10 Barilius barna (Hamilton) + + + - 11 Barilius barnoides Vinciguerra + - - - 12 Barilius bendelisis (Hamilton) + + - + 13 Barilius dogarsinghi Hora + + - - 14 Barilius shacra (Hamilton) + - - - 15 Barilius teleo (Hamilton) - + + - 16 Barilius vagra (Hamilton) - + + - 17 Chela cachius (Hamilton) + - - - 18 Chela laubuca (Hamilton) + - + - 19 Esomus danricus (Hamilton) + - + + 20 Devario aequipinnatus McClelland + + - - 21 Devario devario (Hamilton) - + - - 22 Danio dangila (Hamilton) + - - - 23 Devario naganensis Chaudhuri + + - - 24 Rasbora daniconius (Hamilton) + - - - 25 Amblypharyngodon mola (Hamilton) + + + + 26 Tor mosal (Hamilton) + - - - 27 Tor putitora (Hamilton) + - - + 28 Tor tor (Hamilton) + - - + 29 Tor progenius (McClelland) - + + - 30 Neolissochilus heaxagonolepis (McClelland) + - - - 31 Osteobrama cotio (Hamilton) + - + - 32 Chagunius nicholsi (Myers) + - - - 33 Puntius chola (Hamilton) + + - - 34 Puntius conchonius (Hamilton) + + + - 35 Puntius jerdoni (Day) + - - - 36 Puntius puntio (Hamilton) + + + - 37 Puntius sarana sarana (Hamilton) - + - - 38 Puntius sophore (Hamilton) + - - - 39 Puntius ticto (Hamilton) + - + - 40 Cirrhinus cirrhosus (Bloch) + + + - 41 Cirrhinus ariza (Hamilton) + - + - 42 Labeo boga (Hamilton) + - - - 43 Labeo calbasu (Hamilton) + + + - 44 Labeo gonius (Hamilton) + + - - 45 Labeo pangusia (Hamilton) + + - - 46 Labeo rohita (Hamilton) + - - - 47 Crossocheilus latius (Hamilton) + + - - 48 Garra gotyla (Gray) - + - + 49 Garra gravelyi (Annandale) + - - - 50 Garra nasuta (McClelland) + + - - 51 Garra naganensis Hora + - - - Research Journal of Recent Sciences _ _____ _____ _ _ _______________________________ ______________ __ ISSN 2277 - 2502 Vol. 1( ISC - 2011 ), 7 - 16 (201 2 ) Res.J.Chem.Sci. International Science Congress Association 16 52 Psilorhynchus balitora (Hamilton) + + - + 53 Acanthocobitis botia (Hamilton) + + + - 54 Neonemacheilus peguensis (Hora) + - - - 55 Schistura multifasciatus (Day) + - - - 56 Schistura rupecula (McClelland) + - - - 57 Schistura vincigurrae (Hora) + - - - 58 Schistura prashadi (Hora) - - - + 59 Botia Dario (Hamilton) + + + - 60 Botia rostrata Gunther + + - - 61 Lepidocephalichthys guntea (Hamilton) + - - - 62 Lepidocephalichthys iorrata (Hora) - - - + 63 Rita rita (Hamilton) + - + - 64 Mystus bleekeri (Day) + - + - 65 Mystus cavasius (Hamilton) + + - - 66 Mystus vittatus (Bloch) + + - - 67 Sperata aor (Hamilton) - - + - 68 Sperata seenghala (Sykes) + + + - 69 Ompock bimaculatus (Bloch) - + - - 70 Wallago attu (Bloch & Schnider) + - + - 71 Ailia coila (Hamilton) + + + - 72 Clupisoma garua (Hamilton) + - + - 73 Eutropiichthys murius (Hamilton) + - + - 74 Eutropiichthys vacha (Hamilton) + + + - 75 Amblyceps mangois (Hamilton) - + - - 76 Bagarius bagarius (Hamilton) + + + - 77 Gagata gagata (Hamilton) + - - - 78 Nangra nangra (Hamilton) + - + - 79 Nangra viridescens (Hamilton) - + + - 80 Erethistes pussilus Muller & Troschel + - + - 81 Glyptothorax striatus (McClelland) - + - - 82 Glyptothorax telchitta (Hamilton) + + + - 83 Glyptothorax trilineatus Blyth + - - - 84 Chaca chaca (Hamilton) + - - - 85 Sicamugil cascasia (Hamilton) + - + - 86 Xenentodon cancila (Hamilton) + + - - 87 Aplocheilus panchax (Hamilton) + - + - 88 Magrognathus aral (Bloch & Schneider) + - - - 89 Macrognathus pancalus Hamilton + + - - 90 Mastacembalus armatus (Lacepede) + + + - 91 Chanda nama Hamilton + + + - 92 Parambassis ranga (Hamilton) + + - - 93 Johnius coitor (Hamilton) + - + - 94 Badis badis (Hamilton) + + - - 95 Nandus nandus (Hamilton) + - - - 96 Glossogobius giuris (Hamilton) + + + + 97 Anabas testudineus (Bloch) + - - - 98 Colisa fasciatus (Schneider) + - - - 99 Colisa lalia (Hamilton) + - - - 100 Colisa sota (Hamilton) + - - - 101 Channa orieantalis (Schneider) + - - - 102 Channa panctatus (Bloch) + + - - 103 Channa striata (Bloch) - + - - NB: โ€˜+โ€™ means Present, โ€˜ โ€” โ€™ means absent